Fallen arches, or flatfoot, is a condition in which the arch on the inside of the foot is flat and the entire sole of the foot rests on the ground. It affects about 40% of the general population. Although flat feet in themselves are not usually problematic, they can create problems in the feet, hips, ankles and knees. Pain may be experienced in the lower back if there are alignment problems and if the individual is engaged in a lot of heavy, high impact activities that put stress on the bones and muscles in the lower legs. The arches of most individuals are fully developed by the age of 12 to 13. While some people are born with flat arches, for others the arches fall over time. The tibial tendon, which runs along the inside of the ankle from above the ankle to the arch, can weaken with age and with heavy activity. The posterior tendon, main support structure for the arch, can become inflamed (tendonitis) or even tear if overloaded. For women, wearing high heels can affect the Achilles tendon and alter the structure and function of the ankle. The posterior tibial tendon may compensate for this stress and break down, causing the arches to fall. Obesity is another contributing factor, as well as a serious injury to the ankle or foot, arthritis and bad circulation such as occurs with diabetes.

Causes

Flat feet can be caused by injury, aging, and weight gain. They can cause pain in the feet and may lead to pain in other parts of the body such as the ankles, knees, or hips. For this reason, it behooves us to treat fallen arches. The question becomes how to do so.

Symptoms

People will have a very heavily dropped arch and it won?t affect them at all and people will have it slightly dropped and it could cause fierce problems. It could cause things like plantar fasciitis, it could cause heel spurs, desperate ball-of-the-foot pressure, or pressure on the big toe known as the hallux which causes discomfort in the foot. It will create problems upwards to the knees, hips and the back once you?re out of line.

Diagnosis

Your doctor will ask about your symptoms and medical history. A physical and foot exam will be done. Flat feet can be diagnosed by appearance. To determine if the foot is rigid, you may be asked to do some simple tasks.

Fallen arches lead to flat feet, where the arch of your foot collapses and may even touch the ground. This condition is common in infants and young children because your arches are still developing during childhood, says the Instep Foot Clinic. If your flat feet persist into adulthood, or the condition causes pain, a doctor or podiatrist may prescribe strengthening exercises as part of your treatment.

Surgical Treatment

Since there are many different causes of flatfoot, the types of flatfoot reconstruction surgery are best categorized by the conditions. Posterior tibial tendon dysfunction. In this condition, the tendon connecting the calf muscle to the inner foot is torn or inflamed. Once the tendon is damaged it no longer can serve its main function of supporting the arch of the foot. Flatfoot is the main result of this type of condition and can be treated by the following flatfoot reconstruction surgeries. Lengthening of the Achilles tendon. Otherwise known as gastrocnemius recession, this procedure is used to lengthen the calf muscles in the leg. This surgery treats flatfoot and prevents it from returning in the future. This procedure is often combined with other surgeries to correct posterior tibial tendon dysfunction. Cleaning the tendon. Also known as tenosynovectomy, this procedure is used in the earlier and less severe stages of posterior tibial tendon dysfunction. It is performed before the arch collapses and while the tendon is only mildly affected. The inflamed tissue is cleaned away and removed from the remaining healthy tendon. Tendon transfer. This procedure is done to correct flatfoot and reform the lost arch in the foot. During the procedure, the diseased tendon is removed and replaced by tendon from another area of the foot. If the tendon is only partially damaged, the inflamed part is cleaned and removed then attached to a new tendon. Cutting and shifting bones. Also called an osteotomy, this procedure consists of cutting and reconstructing bones in the foot to reconstruct the arch. The heel bone and the midfoot are most likely reshaped to achieve this desired result. A bone graft may be used to fuse the bones or to lengthen the outside of the foot. Temporary instrumentation such as screws and plates can also be used to hold the bones together while they heal.

Prevention

Sit up straight in a chair with your feet flat on the ground. Scrunch up the toes of one foot as if you are trying to grab hold of the floor then use your toes to drag your foot a small distance forwards. Do this a couple of times on each foot, but don?t use your leg muscles to push your foot forward -- the movement should come solely from the muscles in your feet. Sit in a chair and place a cleaning cloth, towel or small ball on the floor at your feet. Use the toes of one foot to grasp the object and lift it off the floor. This action will require you to clench your toes and contract your arch. Once you have lifted the object a little way off the floor, try to throw it in the air and catch it by stretching your toes and arch out and upwards. Repeat the exercise several times on both feet. Sit on the floor with your legs straight out in front of you then bend your knees out to either side and place the soles of your feet together so your legs form a diamond. Hold on to your ankles and, keeping your heels together at all times, separate your feet so your toes point out to either side. Open and close your feet in this way several times, making sure your little toes stay in contact with the floor throughout the exercise. Starting in the same position, try separating your heels, keeping your toes together at all times.

After Care

Time off work depends on the type of work as well as the surgical procedures performed. . A patient will be required to be non-weight bearing in a cast or splint and use crutches for four to twelve weeks. Usually a patient can return to work in one to two weeks if they are able to work while seated. If a person's job requires standing and walking, return to work may take several weeks. Complete recovery may take six months to a full year. Complications can occur as with all surgeries, but are minimized by strictly following your surgeon's post-operative instructions. The main complications include infection, bone that is slow to heal or does not heal, progression or reoccurrence of deformity, a stiff foot, and the need for further surgery. Many of the above complications can be avoided by only putting weight on the operative foot when allowed by your surgeon.

Plantar fasciitis is an inflammation of the long band of connective tissue running from the heel to the ball of the foot. The plantar fascia acts like a bowstring and supports the arch and several muscles inside the foot. When there is increased stress on the arch, microscopic tears can occur within the plantar fascia, usually at its attachment on the heel. This results in inflammation and pain with standing and walking and sometimes at rest.

Causes

Many things can cause heel pain. Most commonly seen at our Troy, MI office are heel spurs, which are small growths on the heel bone. Heel pain can be caused from heavy activities and increased weight that put extra pressure on feet. Dr. Weinert often treats heel pain in athletes, runners and women who are pregnant. There are other cases where Dr. Weinert has related a patient?s heel pain to arthritis, stress fractures, fractures, bone tumors, cysts, achilles tendonitis and Haglund's deformity. The main cause of heel pain is usually a biomechanical problem in the foot and it?s, in a nutshell, having a foot out of alignment. There are numerous conditions. One of the most prevalent is called talotarsal dislocation syndrome. What that is in lay terms is you?ve just got a misalignment of your ankle on your heel and as you bear weight you?re getting a collapse of the ankle on the heel causing the foot to be out of alignment. So the plantar fascia, bones, joints, and ligaments receive constant stress. This stress occurs at the point where the plantar fascia (the major tissue that connects your toes to your heel) meets the heel. Many patients explain the pain as being in the middle of the inside of the heel. As a patient bears weight, they get the collapse of the foot and that ligament pulls. And if you think of a rubber band constantly getting pulled on that area of the insertion on the heel, you eventually start getting some micro tears in that ligament and causing inflammation and pain specifically right there in middle area of the heel. Plantar fasciitis is also a common source of heel pain. The plantar fascia, a band of tissue that runs from your heel to your toes, can become strained and inflamed due to overuse and wear and tear. This band of tissue can only withstand so much pressure and when it gives way, the pain can be severe and requires immediate and effective treatment.

Symptoms

Plantar fasciitis is a condition of irritation to the plantar fascia, the thick ligament on the bottom of your foot. It classically causes pain and stiffness on the bottom of your heel and feels worse in the morning with the first steps out of bed and also in the beginning of an activity after a period of rest. For instance, after driving a car, people feel pain when they first get out, or runners will feel discomfort for the first few minutes of their run. This occurs because the plantar fascia is not well supplied by blood, which makes this condition slow in healing, and a certain amount of activity is needed to get the area to warm up. Plantar fasciitis can occur for various reasons: use of improper, non-supportive shoes; over-training in sports; lack of flexibility; weight gain; prolonged standing; and, interestingly, prolonged bed rest.

Diagnosis

A podiatrist (doctor who specializes in the evaluation and treatment of foot diseases) will carry out a physical examination, and ask pertinent questions about the pain. The doctor will also ask the patient how much walking and standing the patient does, what type of footwear is worn, and details of the his/her medical history. Often this is enough to make a diagnosis. Sometimes further diagnostic tests are needed, such as blood tests and imaging scans.

Non Surgical Treatment

Treatment for plantar fasciitis - the vast majority of patients recover with conservative treatments (designed to avoid radical medical therapeutic measures or operative procedures) within months. Heel with ice-pack. Home care such as rest, ice-pack use, proper-fitting footwear and foot supports are often enough to ease heel pain. Non-steroidal anti-inflammatory drugs (NSAIDs) - medications with analgesic (pain reducing), antipyretic (fever reducing) effects. In higher doses they also have anti-inflammatory effects, they reduce inflammation (swelling). Non-steroidal distinguishes NSAIDs from other drugs which contain steroids, which are also anti-inflammatory. NSAIDs are non-narcotic (they do not induce stupor). For patients with plantar fasciitis they may help with pain and inflammation. Corticosteroids, a corticosteroid solution is applied over the affected area on the skin; an electric current is used to help absorption. Alternatively, the doctor may decide to inject the medication. However, multiple injections may result in a weakened plantar fascia, significantly increasing the risk of rupture and shrinkage of the fat pad covering the heel bone. Some doctors may use ultrasound to help them make sure they have injected in the right place Corticosteroids are usually recommended when NSAIDs have not helped. Physical therapy, a qualified/specialized physical therapist (UK: physiotherapist) can teach the patient exercises which stretch the plantar fascia and Achilles tendon, as well as strengthening the lower leg muscles, resulting in better stabilization of the ankle and heel. The patient may also be taught how to apply athletic taping, which gives the bottom of the foot better support. Night splints, the splint is fitted to the calf and foot; the patient keeps it on during sleep. Overnight the plantar fascia and Achilles tendon are held in a lengthened position; this stretches them. Orthotics, insoles and orthotics (assistive devices) can be useful to correct foot faults, as well as cushioning and cradling the arch during the healing process. Extracorporeal shock wave therapy, sound waves are aimed at the affected area to encourage and stimulate healing. This type of therapy is only recommended for chronic (long-term) cases, which have not responded to conservative therapy.

Surgical Treatment

At most 95% of heel pain can be treated without surgery. A very low percentage of people really need to have surgery on the heel. It is a biomechanical problem and it?s very imperative that you not only get evaluated, but receive care immediately. Having heel pain is like having a problem with your eyes; as you would get glasses to correct your eyes, you should look into orthotics to correct your foot. Orthotics are sort of like glasses for the feet. They correct and realign the foot to put them into neutral or normal position to really prevent heel pain, and many other foot issues. Whether it be bunions, hammertoes, neuromas, or even ankle instability, a custom orthotic is something worth considering.

A variety of steps can be taken to avoid heel pain and accompanying afflictions. Wear shoes that fit well-front, back, and sides-and have shock-absorbent soles, rigid shanks, and supportive heel counters. Wear the proper shoes for each activity. Do not wear shoes with excessive wear on heels or soles. Prepare properly before exercising. Warm up and do stretching exercises before and after running. Pace yourself when you participate in athletic activities. Don?t underestimate your body's need for rest and good nutrition. If obese, lose weight.

Surgical lengthening of the shorter extremity (upper or lower) is another treatment option. The bone is lengthened by surgically applying an external fixator to the extremity in the operating room. The external fixator, a scaffold-like frame, is connected to the bone with wires, pins or both. A small crack is made in the bone and tension is created by the frame when it is "distracted" by the patient or family member who turns an affixed dial several times daily. The lengthening process begins approximately five to ten days after surgery. The bone may lengthen one millimeter per day, or approximately one inch per month. Lengthening may be slower in adults overall and in a bone that has been previously injured or undergone prior surgery. Bones in patients with potential blood vessel abnormalities (i.e., cigarette smokers) may also lengthen more slowly. The external fixator is worn until the bone is strong enough to support the patient safely, approximately three months per inch of lengthening. This may vary, however, due to factors such as age, health, smoking, participation in rehabilitation, etc. Risks of this procedure include infection at the site of wires and pins, stiffness of the adjacent joints and slight over or under correction of the bone?s length. Lengthening requires regular follow up visits to the physician?s office, meticulous hygiene of the pins and wires, diligent adjustment of the frame several times daily and rehabilitation as prescribed by your physician.

Causes

Leg length discrepancies can be caused by poor alignment of the pelvis or simply because one leg is structurally longer than the other. Regardless of the reason, your body wants to be symmetrical and will do its best to compensate for the length difference. The greater the leg length difference, the earlier the symptoms will present themselves to the patient. Specific diagnoses that coincide with leg length discrepancy include: scoliosis, lumbar herniated discs, sacroiliitis, pelvic obiliquity, greater trochanteric bursitis, hip arthritis, piriformis syndrome, patellofemoral syndrome and foot pronation. Other potential causes could be due to an injury (such as a fracture), bone disease, bone tumors, congenital problems (present at birth) or from a neuromuscular problem.

Symptoms

The symptoms of limb deformity can range from a mild difference in the appearance of a leg or arm to major loss of function of the use of an extremity. For instance, you may notice that your child has a significant limp. If there is deformity in the extremity, the patient may develop arthritis as he or she gets older, especially if the lower extremities are involved. Patients often present due to the appearance of the extremity (it looks different from the other side).

Diagnosis

Asymmetry is a clue that a LLD is present. The center of gravity will shift to the short limb side and patients will try to compensate, displaying indications such as pelvic tilt, lumbar scoliosis, knee flexion, or unilateral foot pronation. Asking simple questions such as, "Do you favor one leg over the other?" or, "Do you find it uncomfortable to stand?" may also provide some valuable information. Performing a gait analysis will yield some clues as to how the patient compensates during ambulation. Using plantar pressure plates can indicate load pressure differences between the feet. It is helpful if the gait analysis can be video-recorded and played back in slow motion to catch the subtle aspects of movement.

Non Surgical Treatment

Treatment for an LLD depends on the amount of difference and the cause, if known. The doctor will discuss treatment options carefully with you and your child before any decisions are made. It is important to note that treatment is planned with the child?s final height and leg lengths in mind, not the current leg lengths. Treatment is generally not needed if the child?s final LLD is predicted to be 2 centimeters or less at full height. However, the child should return to an orthopaedic doctor by age 10 for re-evaluation. Treatment is often recommended for LLDs predicted to be more than 2 centimeters at full height. If treatment is done, it usually doesn?t begin until the child starts walking. Possible treatment options include, A ?lift? in one shoe to level the child?s hips. This is often the only treatment needed for small discrepancies.

Surgical operations to equalize leg lengths include the following. Shortening the longer leg. This is usually done if growth is already complete, and the patient is tall enough that losing an inch is not a problem. Slowing or stopping the growth of the longer leg. Growth of the lower limbs take place mainly in the epiphyseal plates (growth plates) of the lower femur and upper tibia and fibula. Stapling the growth plates in a child for a few years theoretically will stop growth for the period, and when the staples were removed, growth was supposed to resume. This procedure was quite popular till it was found that the amount of growth retarded was not certain, and when the staples where removed, the bone failed to resume its growth. Hence epiphyseal stapling has now been abandoned for the more reliable Epiphyseodesis. By use of modern fluoroscopic equipment, the surgeon can visualize the growth plate, and by making small incisions and using multiple drillings, the growth plate of the lower femur and/or upper tibia and fibula can be ablated. Since growth is stopped permanently by this procedure, the timing of the operation is crucial. This is probably the most commonly done procedure for correcting leg length discrepancy. But there is one limitation. The maximum amount of discrepancy that can be corrected by Epiphyseodesis is 5 cm. Lengthening the short leg. Various procedures have been done over the years to effect this result. External fixation devices are usually needed to hold the bone that is being lengthened. In the past, the bone to be lengthened was cut, and using the external fixation device, the leg was stretched out gradually over weeks. A gap in the bone was thus created, and a second operation was needed to place a bone block in the gap for stability and induce healing as a graft. More recently, a new technique called callotasis is being use. The bone to be lengthened is not cut completely, only partially and called a corticotomy. The bone is then distracted over an external device (usually an Ilizarov or Orthofix apparatus) very slowly so that bone healing is proceeding as the lengthening is being done. This avoids the need for a second procedure to insert bone graft. The procedure involved in leg lengthening is complicated, and fraught with risks. Theoretically, there is no limit to how much lengthening one can obtain, although the more ambitious one is, the higher the complication rate.

Differences of an inch-and-a-half to two inches may require epiphysiodesis (adjusting the growth of the longer side) or acute shortening of the other side. Differences greater than 2.5 inches usually require a lengthening procedure. The short bone is cut and an external device is applied. Gradual lengthening is done over months to allow the muscles and nerves accommodate the new length.

Causes

Some limb-length differences are caused by actual anatomic differences from one side to the other (referred to as structural causes). The femur is longer (or shorter) or the cartilage between the femur and tibia is thicker (or thinner) on one side. There could be actual deformities in one femur or hip joint contributing to leg length differences from side to side. Even a small structural difference can amount to significant changes in the anatomy of the limb. A past history of leg fracture, developmental hip dysplasia, slipped capital femoral epiphysis (SCFE), short neck of the femur, or coxa vara can also lead to placement of the femoral head in the hip socket that is offset. The end-result can be a limb-length difference and early degenerative arthritis of the hip.

Symptoms

If your child has one leg that is longer than the other, you may notice that he or she bends one leg. Stands on the toes of the shorter leg. Limps. The shorter leg has to be pushed upward, leading to an exaggerated up and down motion during walking. Tires easily. It takes more energy to walk with a discrepancy.

Diagnosis

A doctor will generally take a detailed medical history of both the patient and family, including asking about recent injuries or illnesses. He or she will carefully examine the patient, observing how he or she moves and stands. If necessary, an orthopedic surgeon will order X-ray, bone age determinations and computed tomography (CT) scans or magnetic resonance imaging (MRI).

Non Surgical Treatment

After the leg length discrepancy has been identified it can be categorized in as structural or functional and appropriate remedial action can be instigated. This may involve heel lifters or orthotics being used to level up the difference. The treatment of LLD depends on the symptoms being experienced. Where the body is naturally compensating for the LLD (and the patient is in no discomfort), further rectifying action may cause adverse effects to the biomechanical mechanism of the body causing further injury. In cases of functional asymmetry regular orthotics can be used to correct the geometry of the foot and ground contact. In structural asymmetry cases heel lifts may be used to compensate for the anatomic discrepancy.

Surgical options in leg length discrepancy treatment include procedures to lengthen the shorter leg, or shorten the longer leg. Your child's physician will choose the safest and most effective method based on the aforementioned factors. No matter the surgical procedure performed, physical therapy will be required after surgery in order to stretch muscles and help support the flexibility of the surrounding joints. Surgical shortening is safer than surgical lengthening and has fewer complications. Surgical procedures to shorten one leg include removing part of a bone, called a bone resection. They can also include epiphysiodesis or epiphyseal stapling, where the growth plate in a bone is tethered or stapled. This slows the rate of growth in the surgical leg.

Morton's neuroma is a condition that affects one of the nerves between the toes. It's also known as Morton's metatarsalgia or interdigital neuroma. In Morton's neuroma, fibrous tissue develops around the nerve, which becomes irritated and compressed. This causes severe pain on the ball of the foot and at the base of the toes. Morton's neuroma can occur on one foot or both feet. It usually affects the nerve between the third and fourth toes, but sometimes the second and third toes are affected.

Causes

There are many reasons to develop a neuroma. Improper shoe gear is probably the most likely cause. Repetitive activity and excessive pressure on the ball of the foot are common. Heredity and genetic factors may also be involved. In many cases the structure of the foot may predispose the condition. Associated conditions that may cause neuroma include: bunion, hammer toes, ligament laxity, and/or a tight calf muscle. Some patients may have thinning of the fat pad on the ball of the foot, which may result in increased pressure of the nerves. Tight pointy shoes (and high heels) without padding may induce pain in the ball of the foot. Neuroma may occur suddenly, or develop over time.

Symptoms

Patients with neuroma may develop pain on the bottom of the forefoot, most commonly under the 3rd and 4th toes, though any toe may be affected. The pain may be dull and mild or severe and sharp. The toes may feel ?numb? as times, especially the area between the 3rd and 4th toes. A classic complaint is that patients feel as if they are ?walking on a stone or pebble? and/or ?feel as if the sock is rolled up in the shoe.? Pain is often worse when walking barefoot.

Diagnosis

Morton's neuroma is usually diagnosed by your doctor listening to your symptoms and examining your foot. Sometimes your doctor can feel the 'neuroma', or an area of thickening in your foot, which may be tender. Sometimes, your doctor may suggest an ultrasound scan or MRI scan to confirm the diagnosis but this is not always necessary. Some doctors inject a local anaesthetic into the area where you are experiencing pain. If this causes temporary relief of pain, burning and tingling, it can sometimes help to confirm the diagnosis and show the doctor where the problem is.

Non Surgical Treatment

Sclerosing alcohol injections are an increasingly available treatment alternative if the above management approaches fail. Dilute alcohol (4%) is injected directly into the area of the neuroma, causing toxicity to the fibrous nerve tissue. Frequently, treatment must be performed 2-4 times, with 1-3 weeks between interventions. An 60-80% success rate has been achieved in clinical studies, equal to or exceeding the success rate for surgical neurectomy with fewer risks and less significant recovery. If done with more concentrated alcohol under ultrasound guidance, the success rate is considerably higher and fewer repeat procedures are needed. Radio Frequency Ablation is also used in the treatment of Morton's Neuroma The outcomes appear to be equally or more reliable than alcohol injections especially if the procedure is done under ultrasound guidance.

Surgical Treatment

The ultimate success of a Morton?s neuroma treated surgically is somewhat unclear. This is likely due to the idea that in most instances a ?Morton?s neuroma? is actually more than just an isolated nerve problem but rather consitutes a metatarsalgia where other structures (such a as the MTP joints) are also problematic, not just the nerve. Therefore, addressing the nerve as well as the other components of a metatarsalgia may offer a better chance of surgical success. However, like many conditions in foot and ankle, it is ideal if this condition can be managed without surgery.

There are actually not one but two unique variations of leg length discrepancies, congenital and acquired. Congenital indicates that you are born with it. One leg is anatomically shorter in comparison to the other. As a result of developmental periods of aging, the brain picks up on the step pattern and recognizes some difference. The entire body typically adapts by tilting one shoulder over to the "short" side. A difference of less than a quarter inch is not grossly excessive, require Shoe Lifts to compensate and commonly won't have a profound effect over a lifetime.

Leg length inequality goes mainly undiscovered on a daily basis, yet this problem is very easily solved, and can eradicate quite a few incidents of back ache.

Therapy for leg length inequality usually involves Shoe Lifts. Many are low cost, often being below twenty dollars, compared to a custom orthotic of $200 or more. Differences over a quarter inch can take their toll on the spine and should probably be compensated for with a heel lift. In some cases, the shortage can be so extreme that it requires a full lift to both the heel and sole of the shoe.

Back pain is the most widespread health problem afflicting people today. Over 80 million people suffer from back pain at some stage in their life. It is a problem which costs companies millions of dollars annually as a result of time lost and productivity. Fresh and improved treatment methods are continually sought after in the hope of minimizing the economic influence this condition causes.

People from all corners of the world suffer from foot ache due to leg length discrepancy. In these situations Shoe Lifts can be of very beneficial. The lifts are capable of reducing any discomfort and pain in the feet. Shoe Lifts are recommended by countless qualified orthopaedic orthopedists.

So that they can support the body in a balanced fashion, the feet have a vital role to play. Inspite of that, it's often the most overlooked region of the human body. Many people have flat-feet meaning there may be unequal force exerted on the feet. This causes other body parts such as knees, ankles and backs to be affected too. Shoe Lifts make sure that suitable posture and balance are restored.

There are actually not one but two different types of leg length discrepancies, congenital and acquired. Congenital implies you are born with it. One leg is anatomically shorter compared to the other. Through developmental stages of aging, the human brain picks up on the step pattern and identifies some variation. Your body typically adapts by dipping one shoulder to the "short" side. A difference of less than a quarter inch isn't grossly uncommon, require Shoe Lifts to compensate and generally does not have a serious effect over a lifetime.

Leg length inequality goes mainly undiscovered on a daily basis, yet this issue is simply corrected, and can eradicate numerous cases of back problems.

Therapy for leg length inequality usually consists of Shoe Lifts. Most are very reasonably priced, often priced at under twenty dollars, in comparison to a custom orthotic of $200 or maybe more. Differences over a quarter inch can take their toll on the spine and should probably be compensated for with a heel lift. In some cases, the shortage can be so extreme that it requires a full lift to both the heel and sole of the shoe.

Upper back pain is easily the most common ailment afflicting people today. Over 80 million people experience back pain at some point in their life. It's a problem which costs businesses millions of dollars yearly as a result of time lost and productivity. Innovative and better treatment solutions are constantly sought after in the hope of reducing the economical influence this issue causes.

People from all corners of the earth suffer the pain of foot ache due to leg length discrepancy. In most of these cases Shoe Lifts are usually of worthwhile. The lifts are capable of eliminating any discomfort and pain in the feet. Shoe Lifts are recommended by many expert orthopaedic practitioners".

To be able to support the human body in a nicely balanced manner, your feet have a critical function to play. Inspite of that, it is often the most overlooked zone in the human body. Many people have flat-feet meaning there is unequal force exerted on the feet. This causes other body parts such as knees, ankles and backs to be impacted too. Shoe Lifts guarantee that correct posture and balance are restored.

There are two unique variations of leg length discrepancies, congenital and acquired. Congenital implies that you are born with it. One leg is anatomically shorter than the other. Through developmental periods of aging, the brain senses the walking pattern and identifies some variation. Your body typically adapts by dipping one shoulder to the "short" side. A difference of less than a quarter inch isn't blatantly abnormal, doesn't need Shoe Lifts to compensate and mostly doesn't have a serious effect over a lifetime.

Leg length inequality goes largely undiagnosed on a daily basis, however this condition is very easily remedied, and can eradicate numerous incidents of back ache.

Therapy for leg length inequality typically involves Shoe Lifts. Most are very inexpensive, commonly being less than twenty dollars, compared to a custom orthotic of $200 plus. When the amount of leg length inequality begins to exceed half an inch, a whole sole lift is generally the better choice than a heel lift. This prevents the foot from being unnecessarily stressed in an abnormal position.

Chronic back pain is easily the most common ailment afflicting people today. Around 80 million men and women experience back pain at some point in their life. It is a problem which costs companies millions every year due to lost time and output. Innovative and superior treatment solutions are always sought after in the hope of reducing the economic impact this condition causes.

Men and women from all corners of the earth suffer from foot ache as a result of leg length discrepancy. In these types of cases Shoe Lifts might be of worthwhile. The lifts are capable of relieving any pain in the feet. Shoe Lifts are recommended by countless certified orthopaedic physicians.

So as to support the body in a well-balanced manner, feet have got a critical task to play. Irrespective of that, it's often the most neglected region in the body. Many people have flat-feet meaning there may be unequal force placed on the feet. This will cause other areas of the body like knees, ankles and backs to be affected too. Shoe Lifts make sure that the right posture and balance are restored.

A Hammer toes is a deformity of the second, third or fourth toes. In this condition, the toe is bent at the middle joint, so that it resembles a hammer. Initially, hammer toes are flexible and can be corrected with simple measures but, if left untreated, they can become fixed and require surgery. People with hammer toe may have corns or calluses on the top of the middle joint of the toe or on the tip of the toe. They may also feel pain in their toes or feet and have difficulty finding comfortable shoes.

Causes

Hammertoe commonly develops because of structural changes that take place over time in the muscles and tendons that bend the toes. People with certain medical conditions, such as diabetes, are at risk for developing hammertoe. It can be an inherited condition for some people. Other causes include trauma and wearing shoes that are too tight, narrow, or have high heels. The toe next to the big toe (second toe) is most frequently affected by hammertoe.

Symptoms

The most common symptoms of hammertoes include. The toe is bent upward at the middle toe joint, so that the top of this joint rubs against the top of the shoe. The remainder of the toe is bent downward. Pain upon pressure at the top of the bent toe from footwear. The formation of corns on the top of the joint. Redness and swelling at the joint contracture. Restricted or painful motion of the toe joint. Pain in the ball of the foot at the base of the affected toe. This occurs because the contracted digit puts pressure on the metatarsal head creating callouse and pressure on the ball of the foot.

Diagnosis

The treatment options vary with the type and severity of each hammer toe, although identifying the deformity early in its development is important to avoid surgery. Your podiatric physician will examine and X-ray the affected area and recommend a treatment plan specific to your condition.

Non Surgical Treatment

Prescription strength medicines to decrease pain and inflammation. Physical Therapy. To strengthen poorly functioning muscles and stretch tight muscles that may be exacerbating the toes. Special ultrasound techniques may reduce inflammation. Custom Foot Orthotics. An orthotic with an exact mold of your foot to better align and support the foot to ease current discomfort and prevent future progression. Toe Splints or Pads. Specific pads may prevent pressure and physical irritation in shoes. Toe splints and toe spacers physically realign the toes and can lessen pain and halt or stall hammer toe progression. Cortisone injections are strong anti-inflammatory agents to decrease pain, and swelling directly at the toe region. Injections only treat the symptoms, and in some cases used in caution (and sparingly) they can weaken supporting ligaments of the toe(s).

Surgical Treatment

Surgery to straighten the toe may be needed if an ulcer has formed on either the end or the top surface of the toe. Surgery sometimes involves cutting the tendons that support movement in the toe so that the toe can be straightened. Cutting the tendons, however, takes away the ability to bend the very end of the toe. Another type of surgery combines temporary insertion of a pin or rod into the toe and alteration or repair of the tendons, so that the toe is straightened. After surgery, the deformity rarely recurs.

Prevention

The key to prevention is to wear shoes that fit you properly and provide plenty of room for your toes. Here?s how to get the right fit. Have your feet properly measured. The best way to do this is to get someone to draw the outline of your foot while you stand barefoot with your full weight on it, then measure the outline at hammertoes the widest point. Measure the soles of your shoes. Ideally, they should be as wide as your feet, but certainly no more than half an inch narrower. Length matters, too, of course: your shoes should be half an inch longer than your longest toe.

Overview The original definition of a bunion was a bursa (a fluid-filled sac) on the side of the foot near the base of the big toe. The bursa was caused by a chronic friction of the patient's first metatarsal bone (the bone to which the big toe attaches) and the shoe. Few people go by this definition any longer. Today most people consider a bunion to be the enlarged bone on the side of the foot that typically caused the bursa. Along with this bump, there is usually an associated mis-alignment of the big toe, with it leaning in towards the second toe. In medical jargon, the term for a bunion is "Hallux Abducto Valgus," or "HAV" for short. Though the condition is really slightly different, it may also be known as "Hallux Valgus." Bunions are usually a progressive problem, and can make it difficult to find shoes that fit. The condition is often quite uncomfortable, not only because of the pressure the shoes exert on the bump, but because of the other factors associated with bunions, which we shall discuss shortly. This is usually a progressive problem, and can make it difficult to find shoes that fit. The condition is often quite uncomfortable, not only because of the pressure the shoes exert on the bump, but because of the other factors associated with bunions, which we shall discuss shortly.

Causes
What causes bunions? This question is often answered by blaming shoes. But in fact, shoes only play a small role in developing bunions. Yes, shoes, especially high heels cause abnormal squeezing of your forefoot. This in turn to help promote a bunion. But if everyone who wore high heels shoes had a bunion, there would be a lot more then the 15% prevalence we see in the general population. As you can see from the flow chart, genetics plays the major role in development of bunion deformities. Genetics determines the way your foot functions. Are you flatfooted? Are your joints flexible or stiff? Do you have a high arch? Do you have tight muscles? These traits are determined by your genetic code. These characteristics then govern how your bones and joints move when you walk. As an example, if your joints are very flexible, this can cause an abnormal amount of instability in your forefoot when you walk. Over time, this abnormal motion will cause the a bunion to develop by allowing your first metatarsal to "drift" towards the mid-line of your body.

Symptoms
Symptoms include redness, swelling and pain which may be present along the inside margin of the foot. The patients feet may become too wide to fit into their normal size shoes and moderate to severe discomfort may occur when the patient is wearing tight shoes. A "hammer toe" may occur at the 2nd toe. This is when the toe contracts and presses on the shoe. Subsequently, this may cause a corn on top of the 2nd toe.

Diagnosis
Bunions are readily apparent - the prominence is visible at the base of the big toe or side of the foot. However, to fully evaluate the condition, the foot and ankle surgeon may take x-rays to determine the degree of the deformity and assess the changes that have occurred. Because bunions are progressive, they don?t go away, and will usually get worse over time. But not all cases are alike - some bunions progress more rapidly than others. Once your surgeon has evaluated your bunion, a treatment plan can be developed that is suited to your needs.

Non Surgical Treatment
The choice of treatment for a bunion lies between non-operative (conservative) and operative treatment. Conservative treatment for a bunion means either wearing wider fitting shoes or shoes with softer leather or using some form of a spacer between the big toe and 2nd toe (or alternatively some form of splint to keep the great toe away from the 2nd toe). The spacers or splintage may apparently straighten the bunion but they make no difference to the width of the foot, and the splaying of the 1st and 2nd metatarsals which occur with a bunion deformity. Therefore this type of treatment will not improve the main pain in a bunion which occurs due to the width of the forefoot. An arch type support orthotic may be useful if a bunion is associated with a flatter foot. If you have a bunion this is however just one other thing to get into a shoe with an already wide foot.

Surgical Treatment
The decision to have bunion surgery is personal and different everyone. While there are many reasons to have bunion surgery, the most common reasons include. Pain. Difficulty walking. Difficulty fitting shoes. Worsening bunion. Pain at the ball of the foot. Failed conservative measures. See Non-surgical Treatment. Some people have surgery simply because they don?t like the way the bunion looks. While some doctors may correct your bunion if it doesn?t hurt, you should be aware that permanent pain may occur after your surgery.

Prevention
Wear insoles and well-fitting shoes to help slow down the progression of bunions and alleviate discomfort. Cushioning can also help alleviate discomfort. Consider wearing shoes with a wide toe box so they don't crowd your toes. Children can also develop bunions and should wear properly fitting shoes as their feet are still developing.